20

In R there are pre-built functions to plot feature importance of Random Forest model. But in python such method seems to be missing. I search for a method in matplotlib.

model.feature_importances gives me following:

array([  2.32421835e-03,   7.21472336e-04,   2.70491223e-03,
         3.34521084e-03,   4.19443238e-03,   1.50108737e-03,
         3.29160540e-03,   4.82320256e-01,   3.14117333e-03])

Then using following plotting function:

>> pyplot.bar(range(len(model.feature_importances_)), model.feature_importances_)
>> pyplot.show()

I get a barplot but I would like to get barplot with labels while importance showing horizontally in a sorted fashion. I am also exploring seaborn and was not able to find a method.

1
  • 1
    You are looking for a barh (horizontal bar plot). Pass feature names as tick_labels.
    – DYZ
    Jun 13, 2017 at 4:16

3 Answers 3

69

Quick answer for data scientists that ain't got no time to waste:

Load the feature importances into a pandas series indexed by your column names, then use its plot method. For a classifier model trained using X:

feat_importances = pd.Series(model.feature_importances_, index=X.columns)
feat_importances.nlargest(20).plot(kind='barh')

Slightly more detailed answer with a full example:

Assuming you trained your model with data contained in a pandas dataframe, this is fairly painless if you load the feature importance into a panda's series, then you can leverage its indexing to get the variable names displayed easily. The plot argument kind='barh' gives us a horizontal bar chart, but you could easily substitute this argument for kind='bar' for a traditional bar chart with the feature names along the x-axis if you prefer.

nlargest(n) is a pandas Series method which will return a subset of the series with the largest n values. This is useful if you've got lots of features in your model and you only want to plot the most important.

A quick complete example using the classic Kaggle Titanic dataset...

import pandas as pd
from sklearn.ensemble import RandomForestClassifier
%matplotlib inline            # don't forget this if you're using jupyter!

X = pd.read_csv("titanic_train.csv")
X = X[['Pclass', 'Age', 'Fare', 'Parch', 'SibSp', 'Survived']].dropna()
y = X.pop('Survived')

model = RandomForestClassifier()
model.fit(X, y)

(pd.Series(model.feature_importances_, index=X.columns)
   .nlargest(4)
   .plot(kind='barh'))        # some method chaining, because it's sexy!

Which will give you this:

sklearn random forest feature importances

2
  • 2
    what if i wanted to flip this graph on the y axis? as in, have age show first, then fare etc May 29, 2020 at 12:38
  • 5
    @ArtTatum Call invert_yaxis() - sample usage pd.Series(model.feature_importances_, index=X.columns).nlargest(4).plot(kind='barh').invert_yaxis() Jun 2, 2020 at 3:57
19

Not exactly sure what you are looking for. Derived a example from here. As mentioned in the comment: you can change indices to a list of labels at line plt.yticks(range(X.shape[1]), indices) if you want to customize feature labels.

import numpy as np
import matplotlib.pyplot as plt

from sklearn.datasets import make_classification
from sklearn.ensemble import ExtraTreesClassifier

# Build a classification task using 3 informative features
X, y = make_classification(n_samples=1000,
                           n_features=10,
                           n_informative=3,
                           n_redundant=0,
                           n_repeated=0,
                           n_classes=2,
                           random_state=0,
                           shuffle=False)

# Build a forest and compute the feature importances
forest = ExtraTreesClassifier(n_estimators=250,
                              random_state=0)

forest.fit(X, y)
importances = forest.feature_importances_
std = np.std([tree.feature_importances_ for tree in forest.estimators_],
             axis=0)
indices = np.argsort(importances)

# Plot the feature importances of the forest
plt.figure()
plt.title("Feature importances")
plt.barh(range(X.shape[1]), importances[indices],
       color="r", xerr=std[indices], align="center")
# If you want to define your own labels,
# change indices to a list of labels on the following line.
plt.yticks(range(X.shape[1]), indices)
plt.ylim([-1, X.shape[1]])
plt.show()

enter image description here

1
  • I got the features names to appear on the y-axis instead of the index number by replacing this line plt.yticks(range(X.shape[1]), indices) for plt.yticks(range(X.shape[1]), [feature_names[i] for i in indices])
    – tsando
    May 10, 2018 at 20:56
3

It's possible to just pass df.columns as the parameter for plt.xticks():

plt.bar( range(len(model.feature_importances_)), model.feature_importances_)
plt.xticks(range(len(model.feature_importances_)), train_features.columns)
plt.show()

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